Multi-through hole testing plate for high throughput screening
Abstract
A method for holding samples for analysis and an apparatus thereof includes a testing plate with a pair of opposing surfaces and a plurality of holes. Each of the holes extends from one of the opposing surfaces to the other one of the opposing surfaces. The holes are arranged in groups, where each group has at least two rows and two columns of holes. The groups are arranged in sets, where each set has at least two rows and two columns of groups. To analyze samples, at least one of the opposing surfaces of the testing plate is immersed in a solution to be analyzed. A portion of the solution enters openings for each of the holes in the immersed opposing surface. Once the holes are filled with solution, the testing plate is removed and is held above a supporting surface. Surface tension holds the solution in each of the holes. The solution in one or more of the holes is then analyzed and the solution in one of these holes is identified for further study. The location of the identified solution is marked based upon its location within a particular set and group of holes.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A method for holding solution, the method comprising: providing a testing plate with a pair of opposing surfaces and a plurality of holes, each of the holes extending from one of the opposing surfaces to the other one of the opposing surfaces; immersing at least one of the opposing surfaces of the testing plate in the solution, wherein a portion of the solution enters openings for each of the holes in the immersed opposing surface; removing the testing plate from the solution, wherein surface tension holds some of the solution in each of the holes; and supporting the opposing surfaces of the testing plate above a supporting surface.
2. The method as set forth in claim 1 wherein each of the holes is sized to hold a plurality of cells in the portion of the solution being held by surface tension.
3. The method as set forth in claim 1 wherein the holes in the testing plate are arranged in groups, each of the groups comprises at least two rows and two columns of holes.
4. The method as set forth in claim 3 further comprising identifying the location of at least one of the holes based on the group in which the hole is located.
5. The method as set forth in claim 4 further comprising identifying a row and a column in the group for the identified hole.
6. The method as set forth in claim 3 wherein the groups of holes on the testing plate are arranged in sets, each of the sets comprising at least two rows and two columns of groups.
7. The method as set forth in claim 6 further comprising identifying the location of the hole based on the set in which the hole is located.
8. A method for identifying the location of at least one sample of a solution, the method comprising: providing a testing plate with a pair of opposing surfaces and a plurality of holes, each of the holes extending from one of the opposing surfaces to the other one of the opposing surfaces, wherein the holes are arranged in groups, each of the groups comprising at least two rows and two columns of holes and wherein the solution is located in at least some of the holes; identifying the solution in at least one hole and locating the identified hole based upon the group in which the hole is located.
9. The method as set forth in claim 8 further comprising identifying a row and a column in the group for the identified hole.
10. The method as set forth in claim 8 wherein the groups of holes on the testing plate are arranged in sets, each of the sets comprising at least two rows and two columns of groups of holes.
11. The method as set forth in claim 10 further comprising identifying the location of the hole based on the set in which the hole is located.
12. A plate for holding samples of a solution with cells for analysis, the plate comprising: a platform having a pair of opposing surfaces; and a plurality of holes in the platform, each of the holes extending from an opening in one of the opposing surfaces in the platform to an opening in the other one of the opposing surfaces and each of the holes being sized to hold a plurality of the cells; wherein a portion of at least one of the opposing surfaces where the holes are located is recessed so that the openings in the platform are spaced in from the opposing surface.
13. The plate as set forth in claim 12 wherein a portion of the other opposing surface where the holes are located is recessed.
14. The plate as set forth in claim 12 wherein a portion of the other opposing surface where the holes are located is protruding.
15. The plate as set forth in claim 12 wherein each of the holes is sized to hold a plurality of cells in the portion of the solution being held by surface tension.
16. The plate as set forth in claim 9 wherein the holes are arranged in groups on the substrate, each of the groups comprises at least two rows and two columns of holes.
17. The plate as set forth in claim 16 wherein the groups are arranged in sets, each of the sets including at least two rows and two columns of groups.
18. The plate as set forth in claim 17 wherein a first distance between the sets is different than a second distance between the groups, is different than a third distance between the holes in each of the rows, and is different than a fourth distance between the holes in each of the columns.
19. The plate as set forth in claim 18 wherein the third and fourth distances are substantially the same.
20. An apparatus for holding samples for analysis comprising: a plate with a pair of opposing surfaces; and a plurality of holes in the plate, each of the holes extending from one of the opposing surfaces to the other one of the opposing surfaces; wherein the holes are arranged in groups on the plate, each of the groups comprising at least two rows and two columns of holes.
21. The apparatus as set forth in claim 20 wherein the groups are arranged in sets, each of the sets including at least two rows and two columns of groups.
22. The apparatus as set forth in claim 21 wherein a first distance between the sets is different than a second distance between the groups, is different than a third distance between the holes in each of the rows, and is different than a fourth distance between the holes in each of the columns.
23. The apparatus as set forth in claim 22 wherein the third and fourth distances are substantially the same.
24. The apparatus as set forth in claim 20 wherein a portion of at least one of the opposing surfaces where the holes are located is recessed so that the openings in the testing plate are spaced in from the opposing surface.
25. The apparatus as set forth in claim 20 wherein each of the holes is sized to hold a plurality of the cells which are suspended in the solution.
26. The apparatus as set forth in claim 25 wherein each of the holes holds between about 0.1 microliters and 10 microliters of the solution.
27. The apparatus as set forth in claim 20 further comprising a handle connected to the testing plate.
28. A method for analyzing a solution, the method comprising: preparing the solution of the sample for screening; providing a testing plate with a pair of opposing surfaces and a plurality of holes, each of the holes extending from one of the opposing surfaces to the other one of the opposing surfaces; immersing at least one of the opposing surfaces of the testing plate in a solution, wherein a portion of the solution enters openings for each of the holes in the immersed opposing surface; removing the testing plate from the solution, wherein surface tension holds some of the solution in each of the holes; and analyzing the solution in one or more of the holes.
29. The method as set forth in claim 28 wherein the step of analyzing is an optical analysis of the solution in one or more of the holes.
30. The method as set forth in claim 28 wherein the step of analyzing is a non-optical analysis of the solution in one or more of the holes.
31. The method as set forth in claim 1 further comprising analyzing the solution being held in at least one of the holes.Cited by (0)
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